PIC16F73T-E/SO Microchip Technology, PIC16F73T-E/SO Datasheet - Page 75

PIC16F73T-E/SO

Manufacturer Part Number

PIC16F73T-E/SO

Description

IC MCU FLASH 4KX14 A/D 28SOIC

Manufacturer

Microchip Technology

Series

PIC® 16Fr

Datasheets

1.PIC16F616T-ISL.pdf (8 pages)

2.PIC16F688T-ISL.pdf (688 pages)

3.PIC16F818-ISO.pdf (6 pages)

4.PIC16F73-ISP.pdf (174 pages)

5.PIC16F73-ISP.pdf (14 pages)

6.PIC16F73-ISP.pdf (12 pages)

Specifications of PIC16F73T-E/SO

Core Processor

PIC

Core Size

8-Bit

Speed

20MHz

Connectivity

I²C, SPI, UART/USART

Peripherals

Brown-out Detect/Reset, POR, PWM, WDT

Number Of I /o

Program Memory Size

7KB (4K x 14)

Program Memory Type

FLASH

Ram Size

192 x 8

Voltage - Supply (vcc/vdd)

4 V ~ 5.5 V

Data Converters

A/D 5x8b

Oscillator Type

External

Operating Temperature

-40°C ~ 125°C

Package / Case

28-SOIC (7.5mm Width)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Eeprom Size

Other names

PIC16F73TE/SO

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

PIC16F73T-E/SO

Manufacturer:

MICROCHIP/微芯

Quantity:

20 000

Current page: 75 of 174
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10.2

In this mode, the USART uses standard non-return-to-

zero (NRZ) format (one START bit, eight or nine data

bits, and one STOP bit). The most common data format

is 8-bits. An on-chip, dedicated, 8-bit baud rate gener-

ator can be used to derive standard baud rate frequen-

cies from the oscillator. The USART transmits and

receives the LSb first. The USART’s transmitter and

receiver are functionally independent, but use the

same data format and baud rate. The baud rate gener-

ator produces a clock, either x16 or x64 of the bit shift

rate, depending on bit BRGH (TXSTA<2>). Parity is not

supported by the hardware, but can be implemented in

software (and stored as the ninth data bit). Asynchro-

nous mode is stopped during SLEEP.

Asynchronous mode is selected by clearing bit SYNC

(TXSTA<4>).

The USART Asynchronous module consists of the fol-

lowing important elements:

• Baud Rate Generator

• Sampling Circuit

• Asynchronous Transmitter

• Asynchronous Receiver

10.2.1

The USART transmitter block diagram is shown in

Figure 10-1. The heart of the transmitter is the transmit

(serial) shift register (TSR). The shift register obtains its

data from the read/write transmit buffer, TXREG. The

TXREG register is loaded with data by firmware. The

TSR register is not loaded until the STOP bit has been

transmitted from the previous load. As soon as the

STOP bit is transmitted, the TSR is loaded with new data

from the TXREG register (if available). Once the TXREG

TXREG register is empty. One instruction cycle later,

flag bit TXIF (PIR1<4>) and flag bit TRMT (TXSTA<1>)

FIGURE 10-1:

 2002 Microchip Technology Inc.

USART Asynchronous Mode

USART ASYNCHRONOUS

TRANSMITTER

TXIE

Interrupt

TXIF

USART TRANSMIT BLOCK DIAGRAM

TXEN

Baud Rate Generator

SPBRG

Baud Rate CLK

MSb

(8)

TX9D

TXREG Register

TSR Register

TX9

• • •

Data Bus

are set. The TXIF interrupt can be enabled/disabled by

setting/clearing enable bit TXIE (PIE1<4>). Flag bit TXIF

will be set, regardless of the state of enable bit TXIE and

cannot be cleared in software. It will reset only when new

data is loaded into the TXREG register. While flag bit

TXIF indicates the status of the TXREG register, another

bit TRMT (TXSTA<1>) shows the status of the TSR reg-

ister. Status bit TRMT is a read only bit, which is set one

instruction cycle after the TSR register becomes empty,

and is cleared one instruction cycle after the TSR regis-

ter is loaded. No interrupt logic is tied to this bit, so the

user has to poll this bit in order to determine if the TSR

Transmission is enabled by setting enable bit TXEN

(TXSTA<5>). The actual transmission will not occur until

the TXREG register has been loaded with data and the

baud rate generator (BRG) has produced a shift clock

(Figure 10-2). The transmission can also be started by

first loading the TXREG register and then setting enable

bit TXEN. Normally, when transmission is first started,

the TSR register is empty. At that point, transfer to the

TXREG register will result in an immediate transfer to

TSR, resulting in an empty TXREG. A back-to-back

transfer is thus possible (Figure 10-3). Clearing enable

bit TXEN during a transmission will cause the transmis-

sion to be aborted and will reset the transmitter. As a

result, the RC6/TX/CK pin will revert to hi-impedance.

In order to select 9-bit transmission, transmit bit TX9

(TXSTA<6>) should be set and the ninth bit should be

written to TX9D (TXSTA<0>). The ninth bit must be writ-

ten before writing the 8-bit data to the TXREG register.

This is because a data write to the TXREG register can

result in an immediate transfer of the data to the TSR

rect ninth data bit may be loaded in the TSR register.

Note 1: The TSR register is not mapped in data

LSb

2: Flag bit TXIF is set when enable bit TXEN

TRMT

memory, so it is not available to the user.

is set. TXIF is cleared by loading TXREG.

Pin Buffer

and Control

SPEN

PIC16F7X

RC6/TX/CK pin

DS30325B-page 73

PIC16F73T-E/SO Microchip Technology, PIC16F73T-E/SO Datasheet - Page 75

PIC16F73T-E/SO

Specifications of PIC16F73T-E/SO

Available stocks

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